Transport coefficients including diffusion in a two-temperature argon plasma - Archive ouverte HAL
Article Dans Une Revue Journal of Physics D: Applied Physics Année : 2002

Transport coefficients including diffusion in a two-temperature argon plasma

Résumé

This paper presents the first application to an argon atmospheric plasma of a very recent derivation of a two-temperature (2T) transport properties theory, based on the Chapman-Enskog method expanded up to the fourth approximation, where only elastic processes are considered. The kinetic electron temperature Te is assumed to be different from that of heavy species Th, chemical equilibrium being achieved. This new theory, where electrons and heavy species are coupled, allows one to determine 2T diffusion coefficients which was not the case of the previous ones. First, basic definitions of transport fluxes are recalled and a binary diffusion coefficient approximation is defined which involves an asymmetric relationship between these coefficients. Second, a particular care is taken in choosing the most recent data of potential interactions or elastic differential cross sections in order to determine the collision integrals. Third, a convergence study of transport coefficients is led to evaluate the influence of the non-equilibrium parameter θ = Te/Th on this convergence. It is shown that changing θ does not modify the convergence of transport coefficients. Moreover, ordinary and thermal diffusion coefficients, electrical and electron translational thermal conductivities as well as viscosity are displayed as functions of the electron temperature for different values of θ = Te/Th. It is pointed out that the non-equilibrium parameter θ has a non-negligible influence on transport coefficients. Besides, recently, it has been shown that the 2T simplified theory of transport properties, very often used in modelling, does not allow one to achieve mass conservation. Consequently, a comparison is presented between the 2T simplified theory and this new approach. Significant differences are found in the electrical conductivity and the electron translational thermal conductivity.

Dates et versions

hal-00018257 , version 1 (31-01-2006)

Identifiants

Citer

Vincent Rat, Pascal André, Jacques Aubreton, Marie-Françoise Elchinger, Pierre Fauchais, et al.. Transport coefficients including diffusion in a two-temperature argon plasma. Journal of Physics D: Applied Physics, 2002, 35, pp.981-991. ⟨10.1088/0022-3727/35/10/306⟩. ⟨hal-00018257⟩
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